Multimedia Security Using Chaotic Maps: Principles and Methodologies
Published on 29. February 2020
Book
Hardback
XIII, 263 pages
978-3-030-38699-3 (ISBN)
Description
This comprehensive book is primarily intended for researchers, engineers, mathematicians and computer security specialists who are interested in multimedia security, steganography, encryption, and related research fields. It is also a valuable reference resource for postgraduate and senior undergraduate students who are studying multimedia, multimedia security, and information security, as well as for professionals in the IT industry.
More details
Series
Edition
2020 ed.
Language
English
Place of publication
Cham
Switzerland
Publishing group
Springer International Publishing
Target group
Professional and scholarly
Illustrations
168 s/w Abbildungen, 160 farbige Abbildungen
XIII, 263 p. 328 illus., 160 illus. in color.
Dimensions
Height: 241 mm
Width: 160 mm
Thickness: 21 mm
Weight
588 gr
ISBN-13
978-3-030-38699-3 (9783030386993)
DOI
10.1007/978-3-030-38700-6
Schweitzer Classification
Other editions
Additional editions
Book
02/2021
Springer
€106.99
Shipment within 7-9 days
E-Book
02/2020
Springer
€96.29
Available for download
Person
Khalid M. Hosny
was born in Zagazig, Egypt, in 1966. He received his B.Sc., M.Sc., and Ph.D. from Zagazig University, Egypt, in 1988, 1994, and 2000, respectively, and is currently a Professor of Information Technology, at the university's Faculty of Computers and Informatics. From 1997 to 1999, he was a Visiting Scholar at the University of Michigan, Ann Arbor, and the University of Cincinnati, USA. He is a senior member of the ACM and IEEE. His research interests include image processing, pattern recognition, computer vision and multimedia security. Dr. Hosny has published 3 books and more than 70 papers in international journals, and is an editor and scientific reviewer for more than 35 international journals.
Content
A Survey On Chaos Based Image Encryption Techniques.- Chaotic Maps For Image Encryption: An Assessment Study.- Optical Cryptosystem Using Chaotic/Hyperchaotic System.- Secure Image Transmission Based On A Proposed Chaotic Maps.- A Chaotic Encryption Algorithm For Image Privacy Based On Two Pseudorandomly Enhanced Logistic Maps.- Improved Color Image Watermarking Using Logistic Maps And Quaternion Legendre-Fourier Moments.- Chaos-Based Gary Image Encryption Using Two Coupled Competition Type Maps.- An Effective Encryption Scheme Based On Chaotic Maps Applied To Digital Image.- Fpga Implementation Of Integer/Fractional Chaotic Systems.- Embedded Hardware Implementation for Image Security Using Chaotic Maps.